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Clinical Trial Summary

Neuromuscular electrical stimulation (NMES) is a tool used in training protocols and in clinical practice to prevent or attenuate atrophy and improve the ability to produce muscle strength in different populations. Although widely used, the effects of NMES can be limited by discomfort and early fatigue induced by electrical current. Previous studies have investigated alternatives to minimize muscle fatigue, reduce muscle discomfort and increase muscle performance. A measure adopted to reduce the NMES's deleterious effects is the choice of stimulation site. More specifically, muscle contractions can be evoked by applying electrical pulses to the trunk of peripheral nerves (nNMES) or terminal branches of the nerve at the muscle belly level (mNMES). There is evidence that the mNMES stimulates the more superficial motor units (MUs), while the deeper MUs of the muscle remain inactivated, or, to recruit them, an additional increase in current intensity and stimulation frequency may be required. On the other hand, in direct nerve stimulation (nNMES) both superficial and deep MUs are recruited regardless of NMES intensity. Based on these observations, a new application modality of NMES emerged, the intercalated nerve and muscle stimulation (iNMES). In this strategy, electrical pulses are intercalated or alternated between the mNMES and nNMES sites, intending to reduce the high frequencies at which the MUs are activated during NMES, recruiting both superficial and deep MUs, and reducing muscle fatigue during evoked contractions. Although iEENM is a promising strategy to potentiate the NMES effects, few studies have investigated the iNMES effects on neuromuscular fatigue, and the existing literature is solely focused on the analysis of the tibialis anterior muscle, limiting the findings' inferences for other muscles important for lower limb functionality (e.g., quadriceps femoris). Therefore, the objective of this study is to compare the effects of nNMES applied to the femoral nerve (FN-NMES), of mNMES applied to the rectus femoris' motor point (MP-NMES), and iNMES applied simultaneously to both sites (FNMP-NMES) on knee extensors' functional (muscle fatigue) and clinical (discomfort) parameters in healthy individuals, through a randomized clinical trial. Our study has three hypotheses. In our first hypothesis, muscle fatigue during an electrical stimulation protocol will be lower with the FNMP-NMES modality, followed by FN-NMES, and will be higher with MP-NMES. Thus, FNMP-NMES will present a smaller reduction in maximal voluntary isometric contractions (MVICs) immediately after the fatigue protocol, a smaller relative reduction between the final compared to the initial evoked torque, a greater number of contractions for the evoked torque to reduce 50% with respect to the initial torque during the NMES fatigue protocol, and a greater total work compared the FN-NMES and MP-NMES modalities. In our second hypothesis, low frequency (20 Hz) NMES will produce greater total work and less fatigability of the knee extensors (smaller reduction from pre to post MVIC, smaller percentage reduction at the final compared to the initial evoked torque, a greater number of contractions for the evoked torque to reduce 50% compared to the initial evoked torque, and greater total work) compared to a high stimulation frequency (100 Hz). Furthermore, the total work will be higher and the fatigability lower with FNMP-NMES, followed by FN-NMES, and finally MP-NMES, regardless of stimulation frequency. Finally, the third hypothesis is that discomfort will be less with FNMP-NMES, followed by FN-NMES, and finally MP-NMES, regardless of stimulation frequency.


Clinical Trial Description

This project will be developed through one randomized clinical study, which will be designed to compare the effects of nNMES applied to the femoral nerve (NF-NMES), mNMES applied to the motor point (PM-NMES), and iEENM applied simultaneously at both sites (NFPM-NMES), using low (20Hz) and high (100 Hz) stimulation frequency, on knee extensors' fatigability and discomfort in healthy subjects. Therefore, this study is characterized by a quantitative approach with a randomized clinical cross-over design, blinded to evaluators and participants. The sample will be characterized by convenience, and healthy men and women (self-declaration that they do not have diseases), aged between 18 and 40 years, will be recruited. To define the sample size, the G-Power software (version 3.1.3; University of Trier, Trier, Germany) was used, and a significance level was adopted for α = 0.05 and power (1-β) = 0.80, for all calculated variables. As the fatigability variable demonstrated the need for a larger sample (24 participants) to avoid errors and reach a minimum statistical power of 80%, the investigators will use the result of this variable for the present study. However, a previous study (DANTAS et al., 2015) reported the exclusion of 25% of individuals who were recruited for evaluation, for reasons related to NMES. Therefore, considering possible exclusions or even losses throughout the protocol, the investigators will recruit 30 participants throughout the study, 15 men and 15 women. Assessments will be carried out on 6 different days for each participant. The duration of each evaluation will have an average time of 2 hours for the first evaluation day, and 1.5 hours for the other evaluation days. Additionally, women will be evaluated between the 4th and 22nd day of the menstrual cycle, a period in which there is a greater tolerance to NMES. On the first day, anamnesis will be carried out, explanations about the study will be provided and the participant will be familiarized with the assessment techniques and the assessment protocol. After this initial part, an interval of 10 minutes will be observed, and, then, the envelope will be opened containing which application protocol was randomized to be investigated, that is, tests using FN-NMES, MP-NMES, or FNMP-NMES, after which the following steps/tests will be applied: 1. Preparing participants for the tests; 2. Assessment of the supramaximal evoked twitch torque at rest; 3. Assessment of the maximum torque generated during maximal voluntary isometric contraction (MVIC) pre-fatigue; 4. Assessment of the supramaximal evoked twitch torque pre-fatigue; 5. Evaluation of the current intensity to generate a torque at 20% of the MVIC; 6. Application of the NMES-evoked fatigue protocol; 7. Assessment of discomfort during the fatigue protocol; 8. Evaluation of the maximum torque generated during the MVIC after fatigue; 9. Assessment of the supramaximal evoked twitch torque after the fatigue protocol. This study will adopt an intention-to-treat approach. Therefore, the individual who does not attend the scheduled evaluation will be rescheduled for a new evaluation, allowing the individual to carry out all scheduled evaluations. If the subject chooses to withdraw from participating in the research project, the data collected until the end of his/her participation in the study will be used for analysis. Thus, a flowchart will be used to indicate the abandonment of subjects during all phases of the study, if it does occur. In addition, the flowchart will record how individuals will be included/excluded in the different phases of the study. The statistical procedures will be performed in the SPSS 21.0 program for Windows, and the data tabulation in the Excel 2016 program. The distribution of variables will be presented as mean and standard deviation. The Shapiro-Wilk test will be used to analyze the normality of the data distribution. To compare the fatigability between NMES modalities, ANOVA will be used for repeated measures of two intramodality factors (NMES frequencies and pre/post-NMES protocol time) and an intermodality factor (gender). To compare discomfort between NMES modalities, ANOVA will be used for repeated measures of two intramodality factors (NMES frequencies and NMES site) and an intermodality factor (gender). If there is an interaction between factors, a one-way ANOVA for repeated measures will be used to see if there are differences between the modalities, and, to locate the differences, the Bonferroni post hoc test will be used. In addition, the Cohen's "d" effect size will be calculated, which will be categorized as trivial (<0.20), small (0.20-0.49), moderate (0.50-0.79), large (0.80 to 1.29), and very large. (>1.30) (ROSENTHAL, 1996). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05605210
Study type Interventional
Source Federal University of Rio Grande do Sul
Contact
Status Active, not recruiting
Phase N/A
Start date January 25, 2023
Completion date December 30, 2024

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